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Electronic packages are the
interconnect housings for semi-
conductor devices. They provide
electrical interconnections
between the IC and the board,
and they efficiently remove the
heat generated by the device.
Device feature sizes are
constantly shrinking, resulting in
an increased number of available
transistors. Today’s submicron
technology is also enabling large
scale functional integration,
moving toward system on-a-chip-
solutions. To keep pace with these
new advancements in silicon
technologies, semiconductor
packages have also evolved to
provide improved device func-
tionality and performance.
In addition, electronic packages
must address the high pin counts,
reduced pitch, and form factor
requirements that today’s
advanced applications demand.
At the same time, packages must
be reliable and cost effective.
Packaging Technology at Xilinx
At Xilinx, a wide range of leaded as well as array packages have been developed to
meet the design and performance requirements of today’s advanced IC devices. Xilinx
advanced package offerings, such as standard overmolded PBGAs, thermally enhanced
Cavity-down BGAs, high performance Flip-Chip BGAs and Flip-Chip CCGAs, Quad
Flat No-Lead packages, and small form factor CSPs (Chip Scale Packages) are offered
to address various pin counts and density requirements, while offering superior
electrical performance as compared to their leaded counterparts. Pb-free packages
are also available.
”Green“ Packaging Solutions from Xilinx
Xilinx has also developed packaging solutions that are safer for the environment. Today,
standard packages from Xilinx do not contain substances that have been identified as
harmful to the environment including cadmium, hexvalent chromium, mercury, PBB,
and PBDE. Pb-free solutions take that one step further and also do not contain lead (Pb).
This makes Pb-free solutions from Xilinx RoHS (Reduction of Hazardous Substances)
compliant. Xilinx refers to these products as “green”. Pb-free packages from Xilinx are
also JEDEC STD-20 compliant meaning that the packages have been made to be more
robust so they are capable of withstanding higher reflow temperatures. Xilinx is now
ready to support the industry requirements for Pb-free packaging solutions.
For more information on Xilinx packaging, refer to xilinx.com/packaging.
Xilinx AdvancedPackaging
Package Offering Pb-free solutions will be available for all current packages. Contact your Xilinxsales representative for specific availability.
Part Number Pb-free products are differentiated from standard products by the packagecode. A “G” character is added after the package designator and before the pincount on all Pb-free packages.
Thermal Performance Thermal performance for Pb-free packaging is equivalent to that for standard(non Pb-free) packages. Refer to the thermal performance information speci-fied on specific packages in this brochure.
Reliability Temperature Cycles (-55ºC – 125ºC) �1000 CyclesTHB 85ºC/85 R.H., Biased, 1000 hrsUnbiased 85/85 85ºC/85 R.H., 1000 hrsMoisture Sensitivity Level 3 (4 for flip-chip BGAs)
Pb-free MaterialsPlating (lead-frame packages) 100% Matte SnSolder Balls (BGAs) SnAgCu
Package Construction
‘Green’ mold compound
SnAgCu BGA solder balls Matte Sn plating
BGA Lead Frame
Pb-Free Packages
Xilinx proactively worked with suppliers,
customers, and industry consortia to
develop and qualify suitable material sets
and processes for Pb-free applications. The
Xilinx Pb-free initiative was driven in
response to legislative mandates banning Pb
from electronic products and to meet the
growing needs of our valued customers to
supply environmentally friendly products.
Xilinx sources the best material sets for
Pb-free applications. Material sets are
reliable, environmentally friendly, and
robust to meet the requirement of the
higher reflow temperature (245º – 260º C).
The mold compound used for Pb-free
packages is “green” meaning they are free
of bromine and antimony substances and
comply with the RoHS Directive which
bans Pb, mercury, cadmuim, hexvalent
chromium, and PBDE and PBB flame
retardants.
Features • RoHS compliant
• MSL3 Classification
• Compliant to JEDEC-J-020 standard
for peak reflow temperature
(245ºC– 260ºC)
• Packages marked with Pb-free identifier
• Lead frame packages are compatible
with Sn/Pb soldering process
Package OfferingPackage Body Size Ball Pitch Stand off Package HeightCode D&E (mm) e(mm) A1 (mm) A (mm)BG 352 35x35 1.27 0.6 1.40BG 432 40x40 1.27 0.6 1.40BG 560 42.5x42.5 1.27 0.6 1.38FG 680 40x40 1.00 0.5 1.60FG 860 42.5x42.5 1.00 0.5 1.95
Thermal PerformancePackage Body Size θJA (C/W) CommentsCode (mm) Still AirBG 352 35x35 12.5 4L/2P - SMTBG 432 40x40 11.4 4L/2P - SMTBG 560 42.5x42.5 11.0 EstimatedFG 680 40x40 11.0 4L/2P - SMTFG 860 42.5x42.5 10.5 4L/2P - SMT
ReliabilityTemperature Cycles -55°/+125°C, 1000 cyclesPressure Pot 96 hrs/121°C/2 AtmTemperature/Humidity 85°C/85% RH, 1000 hrs Moisture Sensitivity JEDEC Level 3
Standard MaterialsSubstrate BTDie Attach Silver Filled EpoxyBond Wires 0.9-1.3 mils GoldEncapsulant Liquid EncapsulantHeat Sink CopperSolder Balls (Standard) Eutectic Sn/PbSolder Balls (Pb-free) SnAgCu
Package Construction
Copper Heatspreader Die Attach Adhesive
EncapsulantGold WireCopper Ring Solder Ball
SubstrateIC
Cavity-Down BGA
Cavity-down BGAs are high performance
packages that offer superior electrical
and thermal performance.
The incorporation of the
integrated high conductivity
copper heat spreader
results in thermal resist-
ance values that are
the lowest among the
packages offered
by Xilinx.
Optimized
construction also
provides low
inductance, low
resistance, low
noise performance.
Xilinx cavity-down BGAs are available in
two different ball pitches (1.27 mm and
1.00 mm) and are in standard JEDEC
body sizes. This packaging technology
uses established materials and processes
to ensure reliable performance. All cavity-
down BGA packages are qualified for
JEDEC Level 3 moisture sensitivity level.
Features • Superior electrical performance
• Lowest thermal resistance
(θJA<15°C/W)
• Low profile and light weight
• Fine pad pitch support (to 54 microns)
• Passes JEDEC Level 3
• Available in 1.27 mm pitch and
1.00 mm pitch
• Uses established materials
and processes
• Excellent board level reliability
A
A1e
Bottom View
E
Top View
D
Xilinx Chip Scale
Packages (CSP) are
perfect for high performance, low
cost portable applications
where real estate is of
utmost importance, miniaturization is
key, and power consumption is low.
The Xilinx line of CSP packages include
both the flex-based substrate as well as
rigid BT-based substrate with 0.5 mm
and 0.8 mm ball pitch. The wire bonded
interconnection and die-up configuration
with an overmolded body indicate the
use of mature and advanced assembly
processes and material sets. This configu-
ration also makes the package immune
to die shrink, therefore, avoiding
retooling costs.
With a small form factor and high I/O
counts, Xilinx CSP packages are the
ultimate solution for portable applications,
such as wireless, notebook, telecom, and
cellular systems.
Features • Low package height
• Small form factor and
light weight
• Good immunity to
die shrink
• 0.5 mm and 0.8 mm
ball pitch
• 6 x 6 to 17 x 17 mm
body size
• Uses mature assembly
processes
and material sets
• Single metal flex
substrate and
two metal BT
substrates
Chip Scale Packages
Bottom View
e
A1
e
E
DTop View
Package Construction
IC
Die AttachMolding Compound
Copper PlatingSolder Mask
IC
Solder Ball
Gold Wire
Polyimide TapeCopper Plating
IC
Die AttachMolding Compound
IC
Solder Ball
Gold Wire
BT - Based CSP Flex - Based CSP
Package OfferingPackage Body Size Ball Pitch Stand off Package Height Code D&E (mm) e(mm) A1 (mm) A (mm)CP 56 6x6 0.5 0.2 1.35CP 132 8x8 0.5 0.2 1.00CS 48 7x7 0.8 0.4 1.50CS 144 12x12 0.8 0.4 1.20CS 280 16x16 0.8 0.4 1.20FS 48 6x8 0.8 0.3 1.20FT 256 17x17 1.0 0.4 1.40
Thermal PerformancePackage Body Size θJA (C/W) CommentsCode (mm) Still AirCP 56 6x6 65 EstimatedCP 132 8x8 67.2 4L/2P – SMTCS 48 7x7 45 EstimatedCS 144 12x12 34 4L/2P - SMTCS 280 16x16 31 EstimatedFS 48 8x9 60.1 EstimatedFT 256 17x17 31.0 4L/2P – SMT
ReliabilityTemperature Cycles -55°/+125°C, 1000 cyclesTemperature/Humidity 85°C/85% RH, 1000 hrsPressure Pot 96 hrs/121°C/2 AtmMoisture Sensitivity JEDEC Level 3
Standard MaterialsSubstrate BT/Polyimide (flex based)Die Attach Silver Filled EpoxyBond Wires 1.0-1.2 mil GoldMold Compound Epoxy NovolacSolder Balls (Standard) Eutectic Sn/PbSolder Balls (Pb-free) SnAgCu
Image to scale
Xilinx Flat No-Lead (QFN) package is a
robust and low profile leadframe based
plastic package that has
several advantages over
traditional leadframe
packages. The exposed
die attach paddle enables
efficient thermal
dissipation when directly soldered to
the PCB. Additionally, this near chip
scale package offers improved electrical
performance, smaller package size, and
an absence of external leads. Since the
package has no external leads, coplanarity
and bent leads are no longer a concern.
Xilinx QuadFlat No-Lead packages
are ideal for portable applications where
size, weight, and performance matter.
Features • Small size and light weight
• Excellent thermal and electrical
performance
• Compatible with conventional
SMT process
• Less than 1.0 mm package height
Quad Flat No-LeadPackages
Package Construction
Mold Compound
Exposed Die Paddle
Silicon Die
Copper LeadframeDown Bond
Ground Bond
Gold Wire Die Attach Epoxy
Package OfferingPackage Body Size Ball Pitch Stand off Package Height Code D&E (mm) e(mm) A1 (mm) A (mm)QF 32 5x5 0.50 0.02 0.90QF 48 7x7 0.50 0.02 0.90
Thermal PerformancePackage Body Size θJA (C/W) CommentsCode (mm) Still AirQF 32 5x5 35.5 EstimatedQF 48 7x7 31.2 Estimated
ReliabilityTemperature Cycles (-55ºC – 125ºC) � 1000 Cycles THB 85°C/85% RH, Biased, 1000 hrsUnbiased 85/85 85°C/85% RH, 1000 hrsMoisture Sensitivity JEDEC Level 3
Standard MaterialsLeadframe Substrate CopperDie Attach Epoxy Silver EpoxyBond Wires 1.0 mil GoldMold Compound Epoxy NovolacPlating (Standard) 100% Matte Sn (Pb-free)
Bottom View
e
A1
e
E
DTop View
Package OfferingPackage Body Size Ball Pitch Stand off Package Height Code D&E (mm) e(mm) A1 (mm) A (mm)BG 225 27x27 1.50 0.5 2.15BG 256 27x27 1.27 0.5 2.30BG 492 35x35 1.27 0.6 2.55BG 575 31x31 1.27 0.6 2.33BG 728 35x35 1.27 0.6 2.33FG 256 17x17 1.00 0.5 1.73FG 320 19x19 1.00 0.5 2.00FG 324 23x23 1.00 0.5 2.25FG 456 23x23 1.00 0.5 2.20FG 676 27x27 1.00 0.5 2.25FG 900 31x31 1.00 0.5 2.25FG 1156 35x35 1.00 0.5 2.33
Thermal PerformancePackage Body Size θJA (C/W) CommentsCode (mm) Still AirBG 225 27x27 30 4L/2P - SMTBG 256 27x27 27 4L/2P - SMTBG 492 35x35 17 4L/2P - SMTBG 575 31x31 14.4 EstimatedBG 728 35x35 14.1 EstimatedFG 256 17x17 25.9 4L/2P – SMTFG 320 19x19 30 EstimatedFG 324 23x23 32.5 4L/2P – SMTFG 456 23x23 19 4L/2P – SMTFG 676 27x27 17 4L/2P – SMTFG 900 31x31 14 4L/2P – SMTFG 1156 35x35 13 Estimated
ReliabilityTemperature Cycles -55°/+125°C, 1000 cyclesHAST 100 hrs/130°C/3 AtmPressure Pot 96 hrs/121°C/2 AtmMoisture Sensitivity JEDEC Level 3
Standard MaterialsSubstrate BTDie Attach Silver Filled EpoxyBond Wires 0.9-1.5 mils GoldMold Compound Epoxy NovolacSolder Balls (Standard) Eutectic Sn/PbSolder Balls (Pb-free) SnAgCu
Ball Grid Array (BGA) is a plastic
packaging technology that uses
area array solder balls at the
bottom of the package to
make electrical contact with
the system circuit board. The area
array format of solder balls reduces
package size considerably as
compared to leaded products.
Xilinx BGAs are assembled with high-
quality materials and use mature
processes for high performance and
reliability. The substrate is a multilayer
BT epoxy-based material with signal,
power, and ground planes. This configu-
ration provides enhanced electrical and
thermal performance. The package is
offered in an overmolded die-up format
with a ball pitch of 1.27 mm and 1.00 mm
(fine pitch). The fine-pitch option
provides a significantly increased
number of I/Os.
Features • Improved electrical performance
(short wire length)
• Enhanced thermal performance
• Fine die pad pitch support
(to 54 microns)
• Multilayer with ground and
power planes
• High board assembly yield/SMT
compatible
• Low profile and small footprint
Plastic Overmolded BGAs
Plated Copper Conductor
Solder MaskThermal/Ground Via BT Substrate
IC
Solder Ball
Signal ViaEpoxyGold Wire
E
Bottom View Top View
D
A1
Ae
Package Construction
Flip-chip is a packaging interconnect
technology that replaces peripheral
bond pads of the traditional wire
bond interconnect
technology, with
area array inter-
connect at the
die/substrate
interface.
Unlike traditional
packaging, in which the die is attached
to the substrate face up and the connection
is made by using wire, the solder bumped
die in a flip-chip package is flipped over
and placed face down, with the conductive
bumps connecting directly to the match-
ing metal pads on the laminate substrate.
Xilinx Flip-Chip Packages are assembled
on high-density, multi-layer organic
laminate substrates. Since the flip-chip
bump pads are in area array configuration,
very fine lines and geometry on the
substrates are required to successfully
route the signals from the die to the
periphery of the substrates. Multi-layer
build up structures offer this layout
flexibility on flip-chip packages as well
as providing improvements in power
distribution and signal transmission
characteristics. This packaging technology
is used exclusively for Xilinx high
performance, high pin count FPGA
products.
Advantages of Flip-ChipInterconnect • Easy access to core power/ground
and shorter interconnect, resulting in
better electrical performance
• Elimination of wire bond results in
lower inductance, for better noise
control
• Excellent thermal performance
(direct heatsinking to backside of
the die)
• Higher I/O density because bond pads
are in area array-format
Silicon Die
Underfill EpoxyFlip-ChipSolder Bump
Organic Build-up SubstrateSolder Ball
Copper Heatspreader
Thermal GreaseAdhesive Epoxy
Package OfferingPackage Body Size Ball Pitch Stand off Package HeightCode D&E (mm) e(mm) A1 (mm) A (mm)BF 957 40x40 1.27 0.60 3.25FF 668/672 27x27 1.00 0.50 2.65FF 896 31x31 1.00 0.50 3.20FF 1148/1152 35x35 1.00 0.50 3.20FF 1513/1517 40x40 1.00 0.50 3.20FF 1696/1704 42.5x42.5 1.00 0.50 3.20SF 363 17x17 0.80 0.40 1.89
Thermal PerformancePackage Body Size �JA (C/W) CommentsCode (mm) Still AirBF 957 40x40 10.9 JESD - 2S/2PFF 672 27x27 14.6 JESD - 2S/2PFF 896 31x31 11.7 JESD - 2S/2PFF 1152 35x35 11.0 JESD - 2S/2PFF 1517 40x40 11.1 JESD - 2S/2PFF 1704 42.5x42.5 8.0 JESD - 2S/2P
ReliabilityTemperature Cycles (-40° C - 125° C) 1000 CyclesTHB 85°C/85 RH, biased, 1000 hrsUnbiased 85/85 85°C/85 RH, 1000 hrsMoisture Sensitivity JEDEC Level 4
Standard MaterialsSubstrate Multi-layer Organic LaminateHeatspreader CopperFlip-Chip Bumps Eutectic Sn/Pb Solder Balls Eutectic Sn/Pb Thermal Die Attach Thermal GreaseNote: Pb-free solution in development
E
Bottom View Top View
D
AA1
e
Flip-Chip BGAs
Package Construction
Ceramic Column Grid Array (CCGA)
package is a surface mount compatible
package that uses
high temperature
solder columns as
interconnections to
the board. Compared
to the solder spheres, the columns have
lower stiffness and provide a higher
stand-off. These features significantly
increase the reliability of the solder
joints. This package is assembled with
a high density, multilayer ceramic
substrate. When combined with flip-chip
interconnects, this packaging technology
offers a high-density, higher pin count,
and reliable package solution.
Xilinx flip-chip CCGA package is best
suited for applications that require high
performance and high reliability. The
CF 1144 is the first introduced flip-chip
CCGA package.
Features • Excellent package and solder
joint reliability
• Excellent thermal/electrical performance
• JEDEC Level 1 Moisture Sensitivity
Silicon Die
Underfill Epoxy
Solder Column Ceramic Multilayer Substrate
Aluminum HeatspreaderFlip-ChipSolder Bump Thermal Grease
Package OfferingPackage Body Size Ball Pitch Stand off Package HeightCode D&E (mm) e(mm) A1 (mm) A (mm)CF 1144 35x35 1.00 2.20 6.65
Thermal PerformancePackage Body Size �JA (C/W) CommentsCode (mm) Still AirCF 1144 35x35 36.0 Estimated
ReliabilityTemperature Cycles (-55º C -125° C) ≥1000 CyclesUnbiased 85/85 85°C/85 RH, 1000 hrsMoisture Sensitivity JEDEC Level 1
Standard MaterialsSubstrate Multi-layer CermaicHeatspreader Aluminum PlateFlip-Chip Solder Bumps 95Pb5SnSolder Columns 90Pb10SnAdhesive Epoxy
Flip-Chip CCGA Package
Package Construction
E
Bottom View Top View
D
AA1
e
TQFP
PQFP
PLCC
CHIPSCALE BGA
VQFP
VQ44
12.0x12.0mm(0.8mm)
VQ64
12.0x12.0mm(0.5mm)
VQ100
16.0x16.0mm(0.5mm)
PC20
9.91x9.91mm(1.27mm)
PC28
12.45x12.45mm(1.27mm)
PC44
17.53x17.53mm(1.27mm)
PC68
25.15x25.15mm(1.27mm)
PC84
30.23x30.23mm(1.27mm)
TQ144
22.0x22.0mm(0.5mm)
TQ160
26.0x26.0mm(0.5mm)
TQ176
26.0x26.0mm(0.5mm)
TQ100
16.0x16.0mm(0.5mm)
Note: 1. Package outlines shown are actual size.2. For lead-frame packages, dimensions (D & E) shown are inclusive of leads.
Dimensions in parenthesis represent package pitch. 3. The dimensions of the Pb-free package is identical to the standard
package version.
PQ100
23.2x17.2mm (0.65mm)
HQ/PQ208
30.6x30.6mm (0.5mm)
HQ/PQ160
31.2x31.2mm (0.65mm)
HQ/PQ240
34.6x34.6mm (0.5mm)
HQ304
42.6x42.6mm (0.5mm)
CP56
6.0x6.0mm(0.5mm)
CP132
8.0x8.0mm(0.5mm)
FS48
8.0x9.0mm(0.8mm)
CS48
7.0x7.0mm(0.8mm)
CS144
12.0x12.0mm(0.8mm)
16.0x16.0mm(0.8mm)
CS280
TSOP/TSSOP/SOIC
VO20
6.50x6.40mm(0.65mm)
VO48
12.0x20.0mm(0.50mm)
SO20
12.83x10.31mm(1.27mm)
BF957
40.0x40.0mm(1.27mm)
FF1513/FF1517
40.0x40.0mm(1.0mm)
FF1148/FF1152
35.0x35.0mm(1.0mm)
FF896
31.0x31.0mm(1.00mm)
FF668/FF672
27.0x27.0mm(1.0mm)
FF1696/FF1704
42.5x42.5mm(1.0mm)
Note: 1. Package outlines shown are actual size.2. Dimesions referenced in parenthesis represent package pitch.
PLASTIC OVERMOLDED BGA (CAVITY UP)
METAL BGA (CAVITY DOWN)
FLIP-CHIP BGA
FG320
19.0x19.0mm(1.0mm)
17.0x17.0mm(1.0mm)
FT256
17.0x17.0mm(1.0mm)
FG256FG324
23.0x23.0mm(1.0mm)
FG456
23.0x23.0mm(1.0mm)
FG676
27.0x27.0mm(1.0mm)
FG1156
35.0x35.0mm(1.0mm)
BG575
31.0x31.0mm(1.27mm)
BG256
27.0x27.0mm(1.27mm)
BG560
42.5x42.5mm(1.27mm)
BG352
35x35mm(1.27mm)
BG432
40x40mm(1.27mm)
FG680
40.0x40.0mm(1.0mm)
BG728
35.0x35.0mm(1.27mm)
FG900
31.0x31.0mm(1.0mm)
17.0x17.0mm(0.8mm)
SF363
Corporate Headquarters
Xilinx, Inc.
2100 Logic Drive
San Jose, CA 95124
Tel: (408) 559-7778
Fax: (408) 559-7114
Web: www.xilinx.com
European Headquarters
Xilinx, Ltd.
Citywest Business Campus
Saggart,
Co. Dublin
Ireland
Tel: +353-1-464-0311
Fax: +353-1-464-0324
Web: www.xilinx.com
Japan
Xilinx, K.K.
Shinjuku Square Tower 18F
6-22-1 Nishi-Shinjuku
Shinjuku-ku, Tokyo
163-1118, Japan
Tel: 81-3-5321-7711
Fax: 81-3-5321-7765
Web: www.xilinx.co.jp
Asia Pacific
Xilinx, Asia Pacific
Unit 1201, Tower 6, Gateway
9 Canton Road
Tsimshatsui, Kowloon,
Hong Kong
Tel: 852-2-424-5200
Fax: 852-2-494-7159
E-mail: [email protected]
© 2004 Xilinx Inc. All rights reserved. The Xilinx name and logo are registered trademarks; Spartan, XtremeDSP, Virtex, Virtex-II Pro, Foundation, and CORE Generator are trademarks; and The Programmable Logic Company is a service mark of Xilinx Inc.
All other trademarks are the property of their owners.
Printed in the U.S.A. PN 0010951
Recommended PCB Design Rules
The diameter of a land pad on the component side is provided
by Xilinx. This information is required prior to the start of your
board layout so you can design the board pads to match the
component-side land geometry. The typical values of these land
pads are described in Figure 1 and summarized in Table 1.
For Xilinx BGA packages, NSMD (Non Solder Mask Defined)
pads on the board are suggested. This allows a clearance
between the land metal (diameter L) and the solder mask open-
ing (diameter M) as shown in Figure 1. The space between the
NSMD pad and the solder mask, and the actual signal trace
widths depends on the capability of the PCB vendor. The cost
of the PCB is higher when the line width and spaces are smaller
D
VL
VH
W
L
M
eNon-solder mask defined land patterns or land defined-land patterns are recommended for BGA packages
Mask opening outside of land
Figure 1: Suggested board layout of soldered pads1
Notes1 3 x 3 matrix for illustration only, one land pad shown with via connection.2 Component land pad diameter refers to the pad opening on the component side (solder mask
defined).3 FG456 package has solder balls in the center in addition to periphery rows of balls.
FG256 FG456 FG676 FG680 FG860 FG900 FG1156 FF896 FF1152 FF1517Component Land Pad Diameter(SMD)2 0.45 0.45 0.45 0.50 0.50 0.45 0.45 0.58 0.58 0.58Solder Land (L) Diameter 0.40 0.40 0.40 0.40 0.40 0.40 0.40 0.50 0.50 0.50Opening in Solder Mask (M) Diameter 0.50 0.50 0.50 0.50 0.50 0.50 0.50 0.60 0.60 0.60Solder (Ball) Land Pitch (e) 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00Line Width Between Via and Land (w) 0.13 0.13 0.13 0.13 0.13 0.13 0.13 0.13 0.13 0.13Distance Between Via and Land (D) 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70Via Land (VL) Diameter 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61Through Hole(VH), Diameter 0.300 0.300 0.300 0.300 0.300 0.300 0.300 0.300 0.300 0.300Pad Array Full Full Full Full Full Full Full Full Full FullMatrix or External Row 16 x 16 22 x 22 26 x 26 39 x 39 42 x 42 30 x 30 34 x 34 30 x 30 34 x 34 39 x 39Periphery Rows - 7 - 5 6 - - - - -
BG225 BG256 BG352 BG432 BG560 BG575 BG728 BF957 CS144 CP56Component Land Pad Diameter(SMD)2 0.63 0.63 0.63 0.63 0.63 0.61 0.61 0.61 0.35 0.30Solder Land (L) Diameter(NSMD) 0.58 0.58 0.58 0.58 0.58 0.56 0.56 0.56 0.33 0.27Opening in Solder Mask (M) Diameter 0.68 0.68 0.68 0.68 0.68 0.66 0.66 0.66 0.44 0.35Solder (Ball) Land Pitch (e) 1.50 1.27 1.27 1.27 1.27 1.27 1.27 1.27 0.80 0.50Line Width Between Via and Land (w) 0.300 0.203 0.203 0.203 0.203 0.203 0.203 0.203 0.13 0.13Distance Between Via and Land (D) 1.06 0.90 0.90 0.90 0.90 0.90 0.90 0.90 0.56 -Via Land (VL) Diameter 0.65 0.65 0.65 0.65 0.65 0.65 0.65 0.65 0.51 0.51Through Hole(VH) Diameter 0.356 0.356 0.356 0.356 0.356 0.356 0.356 0.356 0.250 0.250Pad Array Full - - - - Full Full Full - -Matrix or External Row 15 x 15 20 x 20 26 x 26 31 x 31 33 x 33 24 x 24 27 x 27 31 x 31 13 x 13 10 x 10Periphery Rows - 4 4 4 5 4 1
3
Table 1(Dimensions in millimeters.)